Non-markovian global persistence in phase-ordering kinetics

Abstract

The persistence probability Pg(t) of the global order-parameter of a simple ferromagnet undergoing phase-ordering kinetics after a quench from a fully disordered state to below the critical temperature, T<Tc, is analysed. It is argued that the persistence probability decays algebraically with time in the entire low-temperature phase. For Markov processes, the associated global persistence exponent thetag = (2 lambdaC -d)/(2z) is related to the autocorrelation exponent lambdaC. This relationship is confirmed for phase-ordering in the exactly solved 1D Ising model and the d-dimensional spherical model. For the 2D Glauber-Ising model, thetag=0.063(2) is found which indicates that the dynamics of the global order-parameter is described by a non-markovian process.